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Three Non-circulating Hydroponic Methods for Growing …

Kratky, 2009. Three Non-circulating Hydroponic Methods for Growing lettuce . Proceedings of the International Symposium on Soilless Culture and hydroponics . Acta. Hort. 843:65-72. Three Non-circulating Hydroponic Methods FOR Growing lettuce Kratky University of Hawaii CTAHR/TPSS Beaumont Agricultural Research Center 875 Komohana St. Hilo, Hawaii 96720 USA Keywords: extruded polystyrene, net pot, nutrient solution, Lactuca sativa, roots, tanks, water Abstract Three Non-circulating Hydroponic Methods for Growing lettuce are described which do not require electricity, pumps or wicks.

Three non-circulating hydroponic methods for growing lettuce are described which do not require electricity, pumps or wicks. All of the nutrient solution is added prior to planting or transplanting. In the simplest system, lettuce is seeded in a tapered plastic net pot filled with growing medium and placed in a darkened, 4-

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Transcription of Three Non-circulating Hydroponic Methods for Growing …

1 Kratky, 2009. Three Non-circulating Hydroponic Methods for Growing lettuce . Proceedings of the International Symposium on Soilless Culture and hydroponics . Acta. Hort. 843:65-72. Three Non-circulating Hydroponic Methods FOR Growing lettuce Kratky University of Hawaii CTAHR/TPSS Beaumont Agricultural Research Center 875 Komohana St. Hilo, Hawaii 96720 USA Keywords: extruded polystyrene, net pot, nutrient solution, Lactuca sativa, roots, tanks, water Abstract Three Non-circulating Hydroponic Methods for Growing lettuce are described which do not require electricity, pumps or wicks.

2 All of the nutrient solution is added prior to planting or transplanting. In the simplest system, lettuce is seeded in a tapered plastic net pot filled with Growing medium and placed in a darkened, 4-liter plastic bottle filled with nutrient solution with the lower 3-cm-portion of the pot immersed in nutrient solution. Plants are automatically watered, because the entire Growing medium in the net pot becomes moistened by capillary action. Plant growth reduces the nutrient solution level, creating an enlarging moist air space.

3 Meanwhile, the root system expands and continues to absorb water and nutrients. Leaf and semi-head lettuce cultivars are usually harvested at about 6 to 7 weeks after seeding. A typical expansion of this concept to a commercial scale employs a 14 cm high tank lined with polyethylene sheeting which is filled with nutrient solution and covered with an expanded or extruded polystyrene sheet resting on the tank frame. lettuce is planted or transplanted into net pots filled with Growing medium and placed in holes in the cover.

4 lettuce seedlings are initially watered by capillary action, and later, by direct root uptake. The crop is harvested before the nutrient solution becomes exhausted. Another modification of this method is a float-support system in long rectangular raceway tanks. lettuce is planted or transplanted into net pots placed in a sheet of extruded polystyrene. The cover initially floats on the nutrient solution, and then, comes to rest on 2 parallel plastic pipes (10 cm diam) resting on the tank floor as the nutrient solution level recedes due to plant growth.

5 The tank is filled with water immediately prior to harvesting and floating rafts may be easily moved to a harvesting station. INTRODUCTION The suspended net pot, Non-circulating Hydroponic Growing method is a unique and powerful technique for Growing leafy, semi-head and small romaine lettuce cultivars, because the entire crop can be grown with only an initial application of water and nutrients (Kratky, 1993, 1995, 1996, 2004, 2005). After planting or transplanting, no Kratky, 2009. Three Non-circulating Hydroponic Methods for Growing lettuce .

6 Proceedings of the International Symposium on Soilless Culture and hydroponics . Acta. Hort. 843:65-72. additional labor is required until harvesting. Electricity and pumps are not needed, so the additional production costs and complexities associated with aeration and circulation in many conventional Hydroponic systems are totally avoided by this method. This system is extremely efficient with water use. Water use efficiencies of less than 20 liters per kg of lettuce are common, and an efficiency as low as 11 liters per kg of lettuce has been recorded (Kratky et al.)

7 , 2008). Growers typically aim for 150 to 250 gram heads with this Growing method, and the nutrient solution consumption range is typically in the range of 3 to 6 liters per plant. DISCUSSION Model Growing system A model Growing system consists of a covered tank which is filled with 4 to 8 liters of nutrient solution per plant prior to planting (Fig. 1). lettuce is either seeded or transplanted into containers (preferably, tapered plastic net pots with slits to allow root emergence) containing Growing medium.

8 The containers are supported by the tank cover such that their lower portion is initially immersed in nutrient solution. Fig. 1. A model suspended pot, Non-circulating Hydroponic system at seedling stage where the seedling container is partially immersed in nutrient solution and at harvestable stage where an expanded moist air space forms after the nutrient solution has dropped below the seedling container. Plants are automatically watered, because the entire Growing medium in the net pot becomes moistened by capillary action.

9 Plant growth causes the nutrient solution level to decrease, thus creating an expanding moist air space which is maintained, because the tank cover prevents roots from drying. At some point, direct capillary wetting of the substrate is no longer possible, but the expanding root system is capable of Moist air space Tank Cover Time Nutrient Solution Air or Oxygen roots (Imai, 1987)Water and nutrient roots Kratky, 2009. Three Non-circulating Hydroponic Methods for Growing lettuce . Proceedings of the International Symposium on Soilless Culture and hydroponics .

10 Acta. Hort. 843:65-72. absorbing nutrient solution from the tank. Roots occupying the moist air space above the solution have been described as oxygen roots whose main function is aeration; these roots experience vigorous lateral and branching growth (Imai, 1987). Roots extending into the nutrient solution are considered to be water and nutrient roots that have limited elongation capabilities, because the oxygen content of the nutrient solution becomes progressively lower with depth. The nutrient solution level may remain the same or be lowered, but it should not be raised because submerging the oxygen roots will cause the plant to drown.


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